Robust DTC Based on Adaptive Fuzzy Control of Double Star Synchronous Machine Drive with Fixed Switching Frequency

WERREN, L.: Synchronous Machine with 2 Three Phase Winding, Spatially Displaced by 30EL. Commutation Reactance and Model for Converter-Performance Simulation, ICEM September 1984, vol. 2, Lausanne (Switzerland), pp. 781-784.Search in Google Scholar

SCHIFERL, R. F.—ONG, C. M.: Six Phase Synchronous Machine with AC and DC Stator Connections, IEEE Trans. on Power Apparatus and Systems PAS-102 No. 8 (Aug 1983).10.1109/TPAS.1983.317674Search in Google Scholar

MOUBAYED, N.—MEIBODY-TABAR, F.—DAVAT, B.: Alimentation par deux onduleurs de tension dune machine synchrone double étoile, Revue Internationale de Génie Electrique (RIGE) 1 No. 4 (1998), 457-470.Search in Google Scholar

BENKHORIS, M. F.—MERABTENE, M.—MEIBODY-TABAR, F.—DAVAT, B.—SEMAIL, E.: Approches de modélisation de la machine synchrone double étoile alimentée par des onduleurs de tension en vue de la commande, RIGE 6 No. 5-6 (2003), 579-608.10.3166/rige.6.579-608Search in Google Scholar

BUJA, G. S.—KAZMIERKOWSKI, M. P.: Direct Torque Control of PWM Inverter-Fed AC Motors - A Survey, IEEE Transactions on Industrial Electronics 51 No. 4 (Aug 2004), 744-756.10.1109/TIE.2004.831717Search in Google Scholar

THON, C. L.—IDRIS, N. N. R.—YATIM, A. H. M.: Constant and High Switching Frequency Torque Controller for DTC Drives, IEEE Power Electronics Letters 3 No. 2 (June 2005), 76-80.10.1109/LPEL.2005.851316Search in Google Scholar

BUJA, G.—CASADEI, D.—SERRA, G.: Direct Stator Flux and Torque Control of an Induction Motor: Theoretical Analysis and Experimental Results, in Proceedings of the IECON98, vol. 1, 1998, pp. 150-164.Search in Google Scholar

TANG, L.—ZHONG, L.—RAHMAN, M. F.—HU, Y.: A Novel Direct Torque Controlled Interior Permanent Magnet Synchronous Machine Drive with Low Ripple in Flux and Torque and Fixed Switching Frequency, IEEE Transactions on Power Electronics 19 No. 2 (March 2004), 346-354.10.1109/TPEL.2003.823170Search in Google Scholar

LASCU, C.—TRZYNADLOWSKI, A. M.: Combining the Principles of Sliding Mode, Direct Torque Control and Space-Vector Modulation in a High-Performance Sensorless AC Drive, IEEE Transactions on Industry Applications 40 No. 1 (Jan/Feb 2004), 170-177.10.1109/TIA.2003.821667Search in Google Scholar

BELLOMOA, D.—NASOB, D.—BABUSKA, R.: Adaptive Fuzzy Control of a Non-Linear Servo-Drive, Elsevier Engineering Applications of Artificial Intelligence vol 21 (2008), 846-857.10.1016/j.engappai.2007.11.002Search in Google Scholar

TLEMÇANI, A.—CHEKIREB, H.—BOUCHERIT, M. S.— DJEMAI, M.: Decentralized Direct Adaptive Fuzzy Control of Permanent Magnet Synchronous Motor, The Mediterranean Journal of Measurement and Control 4 No. 1 (2008), 33-43.Search in Google Scholar

TLEMÇANI, A.—CHEKIREB, H.—BOUCHERIT, M. S.: A new Robust Adaptive Control of a Class of MIMO Nonlinear Systems with Fuzzy Approximators, Archives of Control Sciences 16 No. 3 (2006), 247-264.Search in Google Scholar

TAKAGI, T.—SUGENO, M.: Fuzzy Identification of Systems and its Applications to Modeling and Control, IEEE Trans. Systems, Man and Cybernetics 15 No. 1 (1985), 116-132.10.1109/TSMC.1985.6313399Search in Google Scholar

WANG, L. X.: Design and Analysis of Fuzzy Identifiers of Nonlinear Dynamics Systems, IEEE Trans. on Automatic Control 40 No. 1 (Jan 1995), 11-23.10.1109/9.362903Search in Google Scholar

MERABTENE, M.: Modelisation dynamique et commande d'une machine synchrone double étoile, alimentée par des onduleurs MLI fonctionnement en mode normal et dégrade, Thèse de doctorat de luniversité de Nantes, July 2005.Search in Google Scholar

ZONG, L.—RAHMAN, M. F.—HU, W. Y.—LIM, K. W.: A Direct Torque Controller for Permanent Magnet Synchronous Motor Drives, IEEE Transactions on Energy Conversion 14 No. 3 (Sep 1999).10.1109/60.790928Search in Google Scholar

ZONG, L.—RAHMAN, M. F.—HU, W. Y.—LIM, K. W.: Analysis of Direct Torque Control in Permanent Magnet Synchronous Motor Drives, IEEE Transactions Power Electronics 12 No. 3 (1997), 528-536.10.1109/63.575680Search in Google Scholar

ZHAO, Y.—LIPO, T. A.: Space Vector PMW Control of Dual Three-Phase Induction Machine using Vector Space Decomposition, IEEE Transactions on Industry Applications 31 No. 5 (Sep/Oct 1995), 1100-1109.10.1109/28.464525Search in Google Scholar

BOUDANA, D.—NEZLI, L.—MARMOUDI, M. O.—TLEMÇANI, A.—DJEMAI, M.: DTC Based on Fuzzy Logic Control of a Double Star Synchronous Machine Drive, Nonlinear Dynamics and Systems Theory 3 (July 2008), 269-286.Search in Google Scholar

BOUDANA, D.: Sur la commande DTC basée sur les techniques de contrôle robuste de la machine synchrone à double étoile alimentée par convertisseurs multiniveaux, Thèse de doctorat de lEcole Nationale Supŕieure Polytechnique, Algeria, Oct 2009.Search in Google Scholar

MENDEL, J. M.: Fuzzy Systems for Engineering, A tutorial, Proc. IEEE 83 (1995), 347-377.10.1109/5.364485Search in Google Scholar

WANG, L. X.—MENDEL, J. M.: Back-Propagation Fuzzy Systems as Nonlinear Dynamic System Identifiers, Proc. IEEE Int. Conf. on Fuzzy Systems, 1992, pp. 1409-1418.Search in Google Scholar

WANG, L.: Design and Analysis of Fuzzy Identifiers of Nonlinear Dynamic Systems, IEEE Trans. on Automatic Control 40 No. 1 (1995), 11-23.10.1109/9.362903Search in Google Scholar